JP2013232029A - Rfid tag - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an RFID tag that reduces, even when water droplets W are attached to the surface thereof, an effect of moisture as much as possible so as to prevent data communication function thereof from being impaired, has excellent environmental resistance when attached to a management object K, particularly, an article, a facility, and a structure that are installed outside, and can stably maintain the data communication function.SOLUTION: An RFID tag is provided focusing on subjecting the surface of a tag body 2 of the RFID tag to a water-repellent treatment, and includes: the tag body 2; and an RFID inlet 3 that is provided to the tag body 2, and has an IC chip 6 and an RFID antenna 7 to allow wireless data communication. The surface of the tag body 2 is subjected to a water-repellent treatment (water-repellent surface layer 4).

Description

    The present invention relates to an RFID (Radio Frequency Identification) tag, and particularly to an RFID tag capable of avoiding a decrease in data communication function due to water droplets adhering to the surface outdoors.

    Conventionally, an RFID tag having an RFID inlet having an IC chip and an RFID antenna and capable of writing and reading data wirelessly is attached to an object to be managed such as various articles, facilities, structures, etc. It reads and writes various data about things and uses it in various fields such as necessary data management.

    Therefore, when the management object is installed outdoors, or when the surface of the management object is cleaned, or in a usage environment where water droplets are attached even indoors, the RFID If rain or other water droplets adhere to the surface of the tag, the data communication function of the RFID tag using a radio wave having a wavelength band that is easily absorbed by moisture (for example, UHF band (300 MHz to 3 GHz)) is reduced, or the data communication distance May shorten the data management by the RFID tag.

    Therefore, an RFID tag attached to such an object to be managed tends to be unstable in data communication performance, and an RFID tag excellent in long-term use and environmental resistance is demanded.

JP 2001-66990 A

    The present invention has been considered in view of the above problems, and an object thereof is to provide an RFID tag having a characteristic of repelling water droplets adhering to its surface.

    Another object of the present invention is to provide an RFID tag that reduces the influence of moisture as much as possible even when water droplets adhere to the surface thereof, and does not impair the data communication function.

    In addition, the present invention provides an RFID tag which is excellent in environmental resistance and can stably maintain a data communication function by being attached to a management object such as various articles, facilities or structures installed outdoors. Let it be an issue.

    That is, the present invention focuses on applying a water-repellent treatment to the surface of the RFID tag's tag body or exterior case. The first invention is equipped with the tag body and the tag body as well as an IC chip and an RFID antenna. An RFID tag having an RFID inlet capable of wireless data communication, wherein the surface of the tag body is subjected to a water repellent treatment.

    A second invention is an RFID tag having an exterior case and an RFID inlet that is mounted on the exterior case and has an IC chip and an RFID antenna and capable of wireless data communication, and the surface of the exterior case The RFID tag is characterized in that a water-repellent treatment is performed on the RFID tag.

    The water repellent treatment can be performed using a silicone water repellent.

    The water repellent treatment can form a water repellent surface layer with a silicone water repellent.

    The silicone water repellent can be selected from an oil-based solution type, a silane-based solution type, a varnish-based solution type, and the like.

    The wavelength of the radio wave used by the RFID antenna for the data communication is UHF band (300 MHz to 3 GHz (preferably 860 to 960 MHz, more specifically, 433 MHz, 900 MHz, 915 to 928 MHz, 950 to 958 MHz). it can.

    In the RFID tag according to the present invention, the surface of the tag main body or the outer case is subjected to water repellency treatment, so that water droplets are formed on the surface of the tag main body in an environment where water droplets adhere to the outdoor or indoor environment. Even if it adheres, it can be repelled, so that residual moisture can be removed, and the data communication function or data communication distance as an RFID tag can be properly maintained.

    In particular, according to the RFID tag of the first invention, since the surface of the tag body is subjected to water repellency treatment, if the RFID inlet is embedded in the tag body, the structure is relatively simple and water-repellent. It can be manufactured as an RFID tag.

    In particular, according to the RFID tag of the second invention, the surface of the outer case is subjected to water repellent treatment, so that the inner RFID inlet can be protected by the outer case and the water repellent property can be obtained.

1 is a longitudinal sectional view of an RFID tag 1 according to a first embodiment of the present invention. FIG. 2 is a perspective view showing a state in which the RFID tag 1 is attached to a management object K such as an arbitrary article, facility, or structure. It is a longitudinal cross-sectional view of the RFID tag 10 by the 2nd Example of this invention.

    Since the present invention makes it possible to prevent water droplets from adhering to the surface of the tag body or exterior case by applying water repellent treatment, it is excellent in weather resistance and environmental resistance, and is particularly installed outdoors. An RFID tag capable of appropriately and stably managing data related to management objects such as various articles, equipment and structures.

Next, an RFID tag 1 according to a first embodiment of the present invention will be described with reference to FIGS.
FIG. 1 is a longitudinal sectional view of an RFID tag 1, and FIG. 2 is a perspective view showing a state in which the RFID tag 1 is attached to a management target K such as an arbitrary article, facility, or structure. The tag main body 2, the RFID inlet 3 embedded or embedded in the tag main body 2, and the water-repellent surface layer 4 formed on the surface of the tag main body 2.

    The tag body 2 has a predetermined flexibility or elasticity and rigidity, and is a base material formed in an arbitrary shape (in the illustrated example, an elongated plate shape) from a synthetic resin material such as a hard resin or a soft resin. An RFID inlet 3 is provided inside.

The RFID inlet 3 includes, for example, an inlet base 5 made of polyethylene terephthalate or a laminated film thereof, an IC chip 6 and an RFID antenna 7 and can perform wireless data communication.
The RFID inlet 3 is, for example, UHF band (300 MHz to 3 GHz (preferably 860 to 960 MHz, more specifically 433 MHz, 900 MHz, 915 to 928 MHz, 950 to 958 MHz) or microwave (1 to 30 GHz, specifically 2 .45 GHz), HF band (3 MHz to 30 MHz (preferably 13.56 MHz)) or 135 kHz or less, and other necessary radio waves in a predetermined frequency band and electromagnetic action, etc., are required for the IC chip 6 via the RFID antenna 7. Read and write data (data communication) wirelessly.
However, the specific configurations of the IC chip 6 and the RFID antenna 7 are appropriate according to the radio waves used.
In particular, in the case of using a radio wave having a wavelength in the UHF band (for example, 860 to 960 MHz), the communication distance is usually about 5 to 10 m, and applications in various fields are expected.

The cross-sectional structure of the RFID tag 1 (tag main body 2) can be configured by any technique such as a lamination process, an injection molding process, or a combination process thereof, and depending on the use environment or purpose of use of the RFID tag 1 It can be configured in any shape.
For example, the RFID inlet 3 can be laminated and covered by a laminated structure by sandwiching the RFID inlet 3 from above and below with a thermoplastic resin sheet and subjected to planar hot pressing, and this can be firmly protected to ensure environmental resistance.

    The water repellent surface layer 4 is formed by various water repellent treatments such as a process of laminating an arbitrary water repellent material on the surface of the tag body 2, a process of applying a water repellent, or a process of immersing in a water repellent. Even if a water droplet W due to rain water or the like adheres to the surface of the tag body 2, the data communication function between the external reader / writer 8 and the RFID inlet 3 can be maintained. A data communication distance can be secured.

As the water repellent material and water repellent, a material mainly composed of a silicone water repellent is generally used. For example, an oil-based solution type silicone repellent based on dimethyl silicone oil or reactive dimethyl silicone oil is used. The material of the tag body 2 or the RFID tag from a liquid agent, for example, a silane solution type silicone water repellent containing a special silane as a component, and a varnish solution type silicone water repellent containing, for example, silicone resin as a main component Selection can be made according to the usage environment and purpose of use.
However, various processes for forming the water-repellent surface layer 4 need to be suppressed to a mechanical external force or thermal stress that does not destroy the RFID inlet 3 in the RFID tag 1.
Also, as heat treatment for removing the various solvents of the silicone water repellent, care should be taken not to damage the RFID inlet 3 and to prevent the tag body 2 from being thermally denatured. In some cases, room temperature drying is preferred.
Of course, the inlet 3 may be enclosed (built-in or embedded) inside the tag body after the tag body 2 has been subjected to water repellent treatment.

The RFID tag 1 itself is to be fixed to the management object K with a fixing bolt 9 or the like.
The means for fixing the RFID tag 1 to the management target K can be arbitrarily selected according to the installation location or the installation environment. Fixing with a double-sided adhesive tape or fixing with an adhesive may be used.

According to the RFID tag 1 having such a configuration, the surface of the tag body 2 is subjected to a water-repellent treatment called a water-repellent surface layer 4, so that when the management object K is installed outdoors, it is raining or these Even when water droplets W adhere to the surface of the tag main body 2 (water repellent surface layer 4) during the cleaning process, the water repellent surface layer 4 repels the water droplets W due to its water repellent properties, and the RFID tag 1 The residual moisture can be reduced as much as possible.
Therefore, the data communication function between the RFID tag 1 and the reader / writer 8 is not impaired, and the data communication as the RFID tag 1 is possible even in a usage form in which the water droplets W adhere, regardless of whether it is outdoors or indoors. It is possible to maintain a proper function and secure a predetermined data communication distance.

Next, in the present invention, the RFID inlet 3 can be covered with an outer case.
That is, FIG. 3 is a longitudinal sectional view of the RFID tag 10 according to the second embodiment of the present invention. The RFID tag 10 encloses the above-described RFID inlet 3 in the exterior case 11.

    The exterior case 11 protects the RFID inlet 3 and includes an elongated dome-shaped case body 12 and a lid 13 that closes the opening of the case body 12.

    The outer case 11 may be made of a material that transmits radio waves. For example, acrylonitrile-chlorinated polyethylene-styrene copolymer resin, acrylonitrile-ethylene-propylene-diene-styrene copolymer resin, acrylonitrile-styrene copolymer resin, Butadiene styrene methyl methacrylate copolymer resin, polyvinyl chloride, chlorinated polyvinyl chloride, chlorinated polyethylene, norbornene resin, fluororesin, polyamideimide, thermoplastic polyimide, polyetherimide, polycarbonate, polyparamethylstyrene, polyvinyl formal, polyphenylene Thermosetting resins such as sulfide, polymethylpentene, acrylonitrile-butadiene-styrene copolymer resin, epoxy resin, furan resin, polyimide, etc. It can be used.

    In addition, the above-mentioned thermoplastic resin and thermosetting resin include glass fiber, carbon fiber, aramid fiber, ceramic fiber (silicon carbide, boron, alumina), whisker (Al2O3, β-SiC, graphite, potassium titanate, polyoxymethylene). ) Etc. may be included to increase the strength.

As a bonding method of the case main body 12 and the lid 13, any method such as ultrasonic bonding, heat fusion, and bonding with an adhesive can be employed.
As the adhesive, an epoxy resin adhesive, a polyurethane adhesive, an acrylic resin adhesive, a chloroprene rubber adhesive, a nitrile rubber adhesive, a glue, an adhesive tape, or the like can be used.

For example, the case body 12 of the outer case 11 is provided with an inlet support member 14, and the RFID inlet 3 is fixed to the inlet support member 14 with an adhesive or the like, so that the RFID inlet 3 is sealed inside the outer case 11. .
The space between the RFID inlet 3 and the outer case 11 may be a hollow space, or an arbitrary filler may be disposed.
Although not shown in the figure, the RFID inlet 3 can be attached to the inlet support member 14 in a cantilever manner, so that the influence of distortion caused by external force on the outer case 11 can be prevented from affecting the RFID inlet 3.
In addition, by attaching the RFID inlet 3 directly to the back surface of the case main body 12 or the lid 13, a relatively simple configuration can be obtained. However, when the management target K is made of metal, it is desirable that the RFID inlet 3 is positioned as far as possible from the management target K by positioning the RFID inlet 3 on the back side of the case body 12.

Even if water droplets W adhere to the surface of the outer case 11 (water-repellent surface layer 4) by performing the above-described water-repellent surface treatment of the water-repellent surface layer 4 on the surface of the outer case 11 as described above, Can be dropped from the RFID tag 10 by its own weight.
Note that the RFID inlet 3 may be enclosed inside the exterior case 11 after the water repellent treatment.

    According to the RFID tag 10 having such a configuration, the RFID inlet 3 can be protected by the outer case 11 to be an RFID tag having excellent weather resistance and environmental resistance, and between the RFID tag 10 and the reader / writer 8. The data communication function of the RFID tag 10 is properly maintained and the predetermined data communication distance is maintained even if the use is such that the water droplets W adhere to the data communication function regardless of whether it is outdoors or indoors. Can be secured.

1 RFID tag (first embodiment, FIG. 1 and FIG. 2)
2 Tag body 3 RFID inlet 4 Water-repellent surface layer 5 Inlet substrate 6 IC chip 7 RFID antenna 8 Reader / writer 9 Fixing bolt 10 RFID tag (second embodiment, FIG. 3)
DESCRIPTION OF SYMBOLS 11 Exterior case 12 Case body 13 of exterior case 11 Cover 14 of exterior case 11 Inlet support material W Water drop K Management objects, such as arbitrary articles, equipment, or structures

Claims (6)

The tag body,
An RFID tag equipped with the tag body and having an IC chip and an RFID antenna and capable of wireless data communication,
An RFID tag characterized in that a water repellent treatment is applied to the surface of the tag body. An exterior case,
An RFID tag equipped with this exterior case and having an IC chip and an RFID antenna and capable of wireless data communication,
An RFID tag, wherein a surface of the outer case is subjected to a water repellent treatment.     3. The RFID tag according to claim 1, wherein the water repellent treatment is performed using a silicone water repellent.     4. The RFID tag according to claim 1, wherein the water repellent treatment forms a water repellent surface layer with a silicone water repellent.     5. The RFID tag according to claim 1, wherein the silicone water repellent is selected from an oil-based solution type, a silane-based solution type, a varnish-based solution type, and the like.     The wavelength of the radio wave used by the RFID antenna for the data communication is UHF band (300 MHz to 3 GHz (preferably 860 to 960 MHz, more specifically, 433 MHz, 900 MHz, 915 to 928 MHz, 950 to 958 MHz). The RFID tag according to any one of claims 1 to 5, characterized in that:

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